Contributo in rivista scientifica

1. B. Lassen, D. Barettin, M. Willatzen, and L.C. Lew Yan Voon, Piezoelectric
models for semiconductors quantum dots, Microelectronics Journal, 39 (11),
1226 (2008).
2.
D. Barettin, J. Houmark, B. Lassen, M. Willatzen, T. R. Nielsen, J. Mork,
and A.-P. Jauho, Analysis of optical properties of strained semiconductor
quantum dots for electromagnetically induced transparency, Phys. Rev. B
80, 235304 (2009).
3. D. Barettin, S. Madsen, B. Lassen, and M. Willatzen, Comparison of wurtzite
atomistic and piezoelectric continuum strain models: Implications for optical
properties, Superlattices and Microstructures 47, 134 (2010).
4. B. Lassen, M. Willatzen, and D. Barettin, Band-mixing and strain effects in
InAs/GaAs quantum ring, Superlattices and Microstructures, 47, 103 (2010).
5. D. Barettin and P. Sibani, Entropic algorithms and the lid method as
exploration tools for complex landscapes, Phys. Rev. E 84, 036706 (2011).
6. D. Barettin, S. Madsen, B. Lassen, and M. Willatzen, Computational
Methods for Electromechanical Fields in Nanostructures,
Commun. Comput. Phys., 11, pp 797-830 (2012).
7. D. Barettin, A. Di Carlo, R. De Angelis, M. Casalboni, P. Prosposito, Effect
of dielectric Bragg grating nanostucturing on dye sensitezed solar cells.
Optics Express 20 (106), A888-A897 (2012).
8. D. Barettin, A. V. Platonov, A. Pecchia, V. N. Kats, George E. Cirlin, I. P.
Soshnikov, A. D. Bouravleuv, L. Besombes, H. Mariette, M. Auf der Maur,
and A. Di Carlo, Model of a GaAs quantum dot embedded in a polymorph
AlGaAs nanowire, Selected Topics in Quantum Electronics, IEEE Journal of
19 (5), 1901209 (2013).
9. D. Barettin and P. Sibani, Optimization by Record Dynamics, Computer
Physics Communications 185 (3), 730–735 (2014).
10. D. Barettin, R. De Angelis, P. Prosposito, M. Auf der Maur, M. Casalboni,
and A. Pecchia, Model of a realistic InP surface quantum dot extrapolated
from atomic force microscopy results, Nanotechnology 25 (19), 195201
(2014).
11. D. Barettin, R. De Angelis, P. Prosposito, M. Auf der Maur, M. Casalboni,
and A. Pecchia, Inter-dot strain field effect on the optoelectronic properties
of realistic InP lateral quantum-dot molecules, Journal of Applied Physics
117, 9 (2015).
12. D. Barettin, M Auf der Maur, A. Di Carlo, A. Pecchia, A.F Tsatsulnikov, A. V.
Sakharov, W.V. Lundin, A.E. Nikolaev, S.O. Usov, N. Cherkashin, M.J.
Hÿtch, S. Y. Karpov, Influence of electromechanical coupling on opticalproperties of InGaN quantum-dot based light-emitting diodes
Nanotechnology, 28,1 (2017).
13. D. Barettin, M Auf der Maur, A. Di Carlo, A. Pecchia, A.F Tsatsulnikov, A. V.
Sakharov, W.V. Lundin, A.E. Nikolaev, M. Korytov, N. Cherkashin, M.J.
Hÿtch, S. Y. Karpov, Carrier transport and emission efficiency in InGaN
quantum-dot based light-emitting diodes, Nanotechnology, 28, 275201,
(2017).
14. D.V. Lebedev, M.M. Kulagina, S.I. Troshkov, A.S. Vlasov, V.Y. Davydov,
A..N. Smirnov, A.A. Bogdanov, J. L. Merz, J. Kapaldo, A. Gocalinska,
G. Juska, S.T. Moroni, E. Pelucchi, D. Barettin, S. Rouvimov, A.M. Mintairov,
Excitonic lasing of strain-free InP (As) quantum dots in AlInAs microdisk,
Applied Physics Letters, 110, 12 (2017).
15. Aleksandra Furasova, Pavel Voroshilov, Enrico Lamanna, Alexey Mozharov,
Anton Tsypkin, Ivan Mukhin, Daniele Barettin, Konstantin Ladutenko, Anvar
Zakhidov, Aldo Di Carlo, Sergey Makarov, Engineering the Charge
Transport Properties of Resonant Silicon Nanoparticles in Perovskite Solar
Cells, Energy Technology 1900877 (2020).
16. Mikhail A. Masharin, Alexander S. Berestennikov, Daniele Barettin, Pavel
M. Voroshilov, Konstantin S. Ladutenko, Aldo Di Carlo, and Sergey V.
Makarov, Giant Enhancement of Radiative Recombination in Perovskite
Light-Emitting Diodes with Plasmonic Core-Shell Nanoparticles,
Nanomaterials 11, 45 (2021).
17. D. Barettin, M. Auf der Maur, A. Pecchia, Y. Zhang, M. Willatzen, and Z. Lin
Wang, Piezoelectric tunability with Topological Insulator Transition in a
GaN/InN/GaN Quantum Well, Journal of Physics Material 4, 3 (2021).
18. A. M. Mintairov, A. V. Ankundinov, N. A. Kalyuzhnyy, D. V. Lebedev, S. A.
Mintairov, N. V. Pavlov, A. I. Galimov, M. V. Rakhlin, R. A. Salii, A. A.
Toropov, A. S. Vlasov, D. Barettin, M. Auf der Maur, and S. A. Blundell,
Piezo-electric fields and state-filling photo-luminescence in natural
InP/GaInP2 Wigner molecule structures, Appl. Phys. Lett. 118, 121101
(2021).
19. Sara Pettinato, Daniele Barettin, Vadim Sedov, Victor Ralchenko and
Stefano Salvatori, Fabry-Perot Pressure Sensors Based on Polycrystalline
Diamond Membranes, Materials, 14, 1780 (2021).
20. D. Barettin, A. Pecchia, M. Auf der Maur, A. Di Carlo, B. Lassen, and M.
Willatzen, Electromechanical field effects in InAs/GaAs quantum dots based
on continuum k ⋅p and atomistic tight-binding methods , Computational
Materials Science 197 110678 (2021).
21. M. C. Teodorani and D. Barettin, Optimization of InGaN quantum-dot based
light-emitting diodes by means of cellular automata algorithms, Optical and
Quantum Electronics 54, 398 (2022).22. A. Orsini, D. Barettin, F. Ercoli, M. C. Rossi, S. Pettinato, S. Salvatori, A.
Mezzi, R. Polini, A. Bellucci, M. Mastellone, M. Girolami, V. Valentini, S.
Orlando, and D. M. Trucchi, Charge Transport Mechanisms of Black
Diamond at Cryogenic Temperatures, Nanomaterials 12, 2253 (2022).
23. A. Furasova, P. Voroshilov, D. Sapori, K. Ladutenko, D. Barettin, A.
Zakhidov, A. Di Carlo, C. Simovski, and Sergey Makarov, Nanophotonics
for Perovskite Solar Cells, Advanced Photonics Research 3, 2100326
(2022).
24. A. A. Obraztsova, D. Barettin, A. D. Furasova, P. M. Voroshilov, M. Auf der
Maur, A. Orsini, and S. V. Makarov, Light-Trapping Electrode for the
Efficiency Enhancement of Bifacial Perovskite Solar Cells, Nanomaterials
12, 3210 (2022).
25. A. A. Obraztsovaa, A. D. Furasova, D. Barettin, and S. V. Makarov, Highly
Efficient Bifacial MAPbI3 Perovskite Solar Cells Improved by a Light-
Trapping Electrode, Bulletin of the Russian Academy of Sciences: Physics,
Vol. 86, Suppl. 1, pp. S152–S155 (2022).
26. D. Barettin, A. V. Sakharov, A. F. Tsatsulnikov, A. E. Nikolaev, and N.
Cherkashin, Electromechanically Coupled III-N Quantum Dots,
Nanomaterials 13, 241 (2023).
27. A. Orsini, D. Barettin, S. Pettinato, S. Salvatori, R. Polini, M. C. Rossi, A.
Bellucci, E. Bolli, M. Girolami, M. Mastellone, S. Orlando, V. Serpente, V.
Valentini, and D. M. Trucchi, Frenkel-Poole Mechanism Unveils Black
Diamond as Quasi-Epsilon-Near-Zero Surface, Nanomaterials 13, 240
(2023).
28. D. Barettin, I. V. Shtrom, R. R. Reznik, S. V. Mikushev, G. E. Cirlin, M. Auf
der Maur, and N. Akopian, Direct Band Gap AlGaAs Wurtzite Nanowires,
Nano Letters 23, 3, 895–901 (2023).
29. D. Barettin, A. V. Sakharov, A. F. Tsatsulnikov, A. E. Nikolaev, A. Pecchia,
M. auf Der Maur, S. Yu. Karpov, N. Cherkashin, Impact of Local
Composition on the Emission Spectra of InGaN Quantum-Dot LEDs,
Nanomaterials 13, 8, 1367 (2023).
30. G. Prestopino, P. G. Medaglia, D. Scarpellini, S. Bietti, P. Oliva, S.
Monteleone, A. Orsini, D. Barettin, F. Caselli, P. Bisegna, Wurtzite
nanowires strain control by DC electrical stimulation, Engineering Science
and Technology, an International Journal 41, 101387 (2023).
31. D. Barettin, I. V. Shtrom, R. R. Reznik, G. E. Cirlin, Model of a GaAs
Quantum Dot in a Direct Band Gap AlGaAs Wurtzite Nanowire,
Nanomaterials 13, 1, 1737 (2023).
32. D. Barettin, State of the Art of Continuous and Atomistic Modeling of
Electromechanical Properties of Semiconductor Quantum Dots,Nanomaterials 13, 12, 1820 (2023).
33. G. Prestopino, A. Orsini, D. Barettin, G. Arrabito, B. Pignataro, P. G.
Medaglia, Vertically Aligned Nanowires and Quantum Dots: Promises and
Results in Light Energy Harvesting, Materials 16, 12, 4297 (2023).
34. D. Barettin and M. Willatzen, Strain and Piezoelectric Control of Electronic
and Photonic Properties of p − n Diodes, Journal of Physics D: Applied
Physics, 57, 355104 (2024).